For example a 40 amp motor controller - four relays - would be 17.90*4 = $71.60 . And since they are solid state and not mechanical you can pulse width them as much as you want.

To be clear: you could make a cheaper motor driver using MOSFETs , but in that case you would need additional components - MOSFET motor drivers, as well as a custom PCB. Using solid state relays allows you to make a motor controller without any custom boards and its much simpler. A MOSFET motor driver requires some know-how.

Why don't you break out your calculator for a quick run down of the available data, when you think you've found the Holy Grail, instead of starting a discussion that's a waste of time, since it's so easy to see that it's not doable?

The AC SSRs cannot switch DC!The DC SSRs on the bottom of the page (priced $21.90 and $27.90) can switch DC but with the 0.5ms max on/off switching times.That means that the max. frequency to design with is 1kHz and then there's nothing left for PWM.To do useable PWM on them, you'd need to settle for a PWM frequency of around 10Hz tops, to make the switching times negligible.

IOW, you cannot use these SSRs for H-bridges (unless you're trying to build a Senior Citizen Clone ).

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Regards,Søren

A rather fast and fairly heavy robot with quite large wheels needs what? A lot of power?Please remember...Engineering is based on numbers - not adjectives

Why don't you break out your calculator for a quick run down of the available data, when you think you've found the Holy Grail, instead of starting a discussion that's a waste of time, since it's so easy to see that it's not doable?

Better to put out an idea for others to think about than to stay silent. Even if the idea doesn't work, it is clever.

Transistors did not always switch at nanosecond rates. Relays have a long way to go to work fast enough, as you point out, but who knows what the future will bring. These solid-state relays are pretty remarkable compared to their mechanical forebears.

Transistors did not always switch at nanosecond rates. Relays have a long way to go to work fast enough, as you point out, but who knows what the future will bring. These solid-state relays are pretty remarkable compared to their mechanical forebears.

Sure, and perhaps mankind will travel to another planet someday, but I find it utterly pointless telling that once we hunted with sticks and that we don't know whether we will hunt with target locking LASERs someday. I tend to work with what's here and now, as it's what's here and now!

Logged

Regards,Søren

A rather fast and fairly heavy robot with quite large wheels needs what? A lot of power?Please remember...Engineering is based on numbers - not adjectives

You are in a life or death situation. Kidnapped by evil people, you are trapped. The only way to escape is to create a small robot that is laden with explosives, which will travel to the evil people and detonate. The problem is, there are no MOSFETs to be found. You panic. You die.

Or, you remember this thread, and find some DC SSRs lying around. You remember that the PWM frequency issue, so you lower it. The robot works, the evil people die, and MacGyver sends you an autographed picture.

The only way to escape is to create a small robot that is laden with explosives, which will travel to the evil people and detonate. The problem is, there are no MOSFETs to be found. You panic. You die.

Nah, I use a paper clip or similar to make a contact B+ to M+ since there's no reason for going slow when you deal with baddies.

Or, you remember this thread, and find some DC SSRs lying around. You remember that the PWM frequency issue, so you lower it. The robot works, the evil people die,

Had the evil people been stupid enough to leave DC-SSRs when sweeping for MOSFETs, they probably can't kill a worm, so no worries So I don't even have to break open the SSRs to get to the MOSFETs inside and neither do I have to kill the baddies.